CN107585846B

CN107585846B - Hydrogen shower water system

Info

Publication number: CN107585846B
Application number: CN201710815942.9A
Authority: CN
Inventors: 永井秀明
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-04-02
Filing date: 2017-09-12
Publication date: 2020-11-17
Anticipated expiration: 2037-09-12
Also published as: CN107585846A; JP6950884B2; JP2018173159A

Abstract

The present invention provides a hydrogen shower water system for spraying hydrogen gas and shower water together through shower holes provided in a shower plate, the hydrogen shower water system comprising: a shower head having the shower plate provided with a plurality of shower holes; a water/hydrogen mixing space for mixing water and hydrogen; a water introduction space into which water is introduced; and a hydrogen nozzle having a hydrogen discharge hole at a tip thereof for discharging hydrogen, a water supply unit for supplying water to the water introduction space of the shower head, and a hydrogen supply unit for supplying hydrogen to the hydrogen nozzle of the shower head, wherein the water/hydrogen mixing space is disposed between the shower plate and the partition plate, the water introduction space is disposed on a side opposite to the water/hydrogen mixing space with the partition plate interposed therebetween, a water conduction hole for allowing water to flow from the water introduction space to the water/hydrogen mixing space is disposed in the partition plate, the hydrogen discharge hole of the hydrogen nozzle is disposed near the water conduction hole, and hydrogen is discharged from the hydrogen discharge hole of the hydrogen nozzle to the water/hydrogen mixing space through the water conduction hole. The invention can take the hydrogen and water as shower bath together, so that the head and the body can absorb the hydrogen, thereby improving the effect of promoting health brought by the hydrogen.

Description

Hydrogen shower water system

Technical Field

The present invention relates to a shower apparatus using hydrogen and water.

Background

In recent years, hydrogen has been drawing attention as a fuel for hydrogen powered vehicles, but it has been reported that hydrogen water produced by dissolving hydrogen in water has an effect of improving health. For example, it is considered that hydrogen water is a daily drink which not only produces a cosmetic effect such as revitalization of cells and anti-aging, but also has an effect of improving various diseases, and some hospitals take hydrogen water as a part of treatment. In addition, various methods for producing hydrogen water have been proposed (patent document 1).

Documents of the prior art

Japanese patent laid-open No. 2013-126650.

Disclosure of Invention

Problems to be solved by the invention

The present invention aims to provide a method for improving health, which has an effect exceeding that of hydrogen water. In fact, even though called hydrogen water, the solubility of hydrogen in water is very low and the effect of hydrogen water is limited. Accordingly, it is an object of the present invention to provide a method for allowing a body to easily absorb hydrogen, thereby improving the health promoting effect. Particularly, the hydrogen gas is used as a shower together with water (including warm water and hot water) to be used for bathing, so that the hydrogen gas is absorbed by the head and the body, thereby improving the health promotion effect caused by the hydrogen gas.

Means for solving the problems

The present invention relates to a hydrogen shower water system for showering hydrogen gas and shower water to a body together, which has the following features.

(1) The present invention provides a hydrogen shower water system for spraying hydrogen gas and shower water together through shower holes provided in a shower plate, the hydrogen shower water system comprising: a shower head having the shower plate provided with a plurality of shower holes; a water/hydrogen mixing space for mixing water and hydrogen; a water introduction space into which water is introduced; and a hydrogen nozzle having a hydrogen discharge hole at a tip thereof for discharging hydrogen, a water supply unit for supplying water to the water introduction space of the shower head, and a hydrogen supply unit for supplying hydrogen to the hydrogen nozzle of the shower head, wherein the water/hydrogen mixing space is disposed between the shower plate and the partition plate, the water introduction space is disposed on a side opposite to the water/hydrogen mixing space with the partition plate interposed therebetween, a water conduction hole for allowing water to flow from the water introduction space to the water/hydrogen mixing space is disposed in the partition plate, the hydrogen discharge hole of the hydrogen nozzle is disposed near the water conduction hole, and hydrogen is discharged from the hydrogen discharge hole of the hydrogen nozzle to the water/hydrogen mixing space through the water conduction hole.

(2) The present invention also provides the hydrogen shower water system as defined in (1) above, wherein the hydrogen nozzle is conical, the conical hydrogen nozzle has the hydrogen discharge hole at a tip thereof, the hydrogen discharge hole is provided near the water conduction hole provided in the partition plate, and hydrogen in the hydrogen nozzle is sucked into the water/hydrogen mixing space by a negative pressure generated when water introduced into the water introduction space flows into the water/hydrogen mixing space through the water conduction hole, the hydrogen supply unit is a hydrogen generation device, a hydrogen cylinder, or liquid hydrogen, and a pressure regulator capable of regulating a hydrogen pressure is provided on a connection line connecting the hydrogen nozzle and the hydrogen supply unit or on the hydrogen connection line.

(3) The present invention also provides a hydrogen shower water system for ejecting hydrogen together with shower water through shower holes provided in a shower plate, the hydrogen shower water system comprising a shower head including a shower plate having a first shower plate and a second shower plate sandwiching a hydrogen introduction space; a hydrogen gas introduction space clamped by the first shower plate and the second shower plate; and a water introduction space into which water is introduced, and a water supply unit which supplies water to the water introduction space of the shower head, and a hydrogen gas supply unit which supplies hydrogen gas to the hydrogen gas introduction space of the shower head, wherein the first shower plate has a plurality of shower holes, water is discharged from the water introduction space to the hydrogen gas introduction space through the shower holes of the first shower plate, and the second shower plate has a plurality of shower holes, and water and hydrogen gas are ejected from the hydrogen gas introduction space to the outside of the shower head through the shower holes of the second shower plate.

(4) The present invention also provides a hydrogen shower water system for spraying hydrogen gas together with shower water through a shower hole provided in a shower plate, wherein a hydrogen gas connection line connected to the hydrogen gas supply unit is connected to a water supply unit for shower water, and hydrogen gas is supplied to a shower, a portion of the hydrogen gas connection line connected to the water supply unit is conical, a hydrogen gas discharge hole is provided at a top of a portion of the conical hydrogen gas connection line connected to the water supply unit, and hydrogen gas is supplied from the hydrogen gas discharge hole to the water supply unit.

(5) The present invention further provides a hydrogen shower water system as defined in the above (3) or (4), wherein the hydrogen supply unit is a hydrogen generation device, a hydrogen cylinder or liquid hydrogen, a pressure regulator capable of regulating the pressure of hydrogen is provided in a hydrogen connection line connecting the hydrogen introduction space and the hydrogen supply unit, and the second shower plate is detachable.

(6) The invention also provides a hydrogen shower water system, on the basis of the above content, the hydrogen generating device is a device which is provided with a hydrogen outlet on a container added with water and a hydrogen generating agent, the hydrogen outlet is connected with the hydrogen connecting pipeline, the hydrogen generating device is provided with a plurality of hydrogen outlets, at least one hydrogen outlet is connected with the hydrogen connecting pipeline, and at least one hydrogen outlet is connected with the atmosphere.

Effects of the invention

The hydrogen and water entering the shower head can be sprayed from the shower holes to form hydrogen shower water, so that the shower head can be used for showering to the parts such as the head, the hair, the face, the body and the like. Since the hydrogen gas has a small molecular radius and contacts the body together with water, it can permeate into the body through the skin to activate the inside of the body, which can be said to have a propulsive effect on health promotion. Also has effects in improving blood flow, and activating and regenerating capillary vessel. In addition, it has an effect of removing oil or dust attached to the body, hair, scalp and skin, and thus can provide a sufficient cleansing action and bathing effect without using shampoo and body wash. Moreover, hydrogen gas also has an effect of preventing hair and skin from aging, and can improve the color and luster of hair and skin, and the effect can be maintained for a long time.

Drawings

Fig. 1 is a schematic view showing an embodiment of a hydrogen shower water system of the present invention.

Fig. 2 is a schematic view showing a structural embodiment of a shower head for introducing hydrogen gas.

Fig. 3 is a schematic view showing another embodiment of the structure of the hydrogen shower head of the present invention.

Detailed Description

The present invention relates to a hydrogen shower water system for improving health by bathing a head, hair, face, body, etc. with hydrogen shower water, which is composed of hydrogen gas and water (warm water, etc.) formed together into a shower. Fig. 1 is a schematic view showing an embodiment of hydrogen shower water (system) according to the present invention. The hydrogen shower water system comprises a hydrogen generating system 8 and a shower device 9. The shower apparatus 9 includes a hose 21 for introducing water (W) from a water supply unit, and a shower head 11 connected to the hose 21 for discharging a shower (water), and a plurality of shower holes 12 are opened at an outlet portion of the shower head 11. The other end of the hose 21 is connected to a water supply unit, and water (W) supplied from the water supply unit is introduced into the shower head 11 through the hose 21. Here, the water contains warm water whose temperature is adjusted, and a tap cock or a valve may be installed at the connection portion so that the amount of water can be adjusted or the supply of water can be stopped. The shower head 11 may further include a regulator (regulator valve) for cutting off the water supply and regulating the water amount.

The hydrogen generation system 8 includes a hydrogen generation device 10 and a hydrogen introduction pipe 20, one end of the hydrogen introduction pipe 20 is connected to the hydrogen outlet pipe 18 of the hydrogen generation device 10, and the other end of the hydrogen introduction pipe 20 is connected to the shower head 11. The hydrogen generator 10 is provided with a hydrogen generating agent cartridge 15 for charging a hydrogen generating agent into the hydrogen generation container 13. For example, a calcium oxide (CaO) and aluminum (Al) are put in the hydrogen generating agent cartridge 15, and when water 14 is added to the hydrogen generating container 13, the aluminum (Al) serves as a hydrogen generating reaction catalyst to generate hydrogen (H2) (reference numeral 16 indicates hydrogen bubbles). The hydrogen generation container 13 is covered with a top cover 23. When hydrogen gas (H2) is generated, the hydrogen gas is concentrated in the space 17 under the top cover 32 located at the upper portion of the hydrogen generation vessel 13, so that the pressure of the space 17 under the top cover 23 of the hydrogen generation vessel 13 is increased. The top cover 23 is formed with a hydrogen gas outlet pipe 18, and hydrogen gas in the space 17 inside the hydrogen generation container 13 is pressed out from the hydrogen gas outlet pipe 18. The hydrogen outlet pipe 18 is connected to a hydrogen inlet pipe 20, so that hydrogen pressed out from the hydrogen outlet pipe 18 enters the hydrogen inlet pipe 20 and is introduced into the shower head 11.

The hydrogen and water entering the shower head are discharged from the shower holes 12 as hydrogen shower water 22, and the shower head can be used for bathing the head, hair, face, body, and the like. The hydrogen shower water can generate negative ions, and has the effect of promoting health. Since hydrogen has a small molecular radius and contacts the body together with water, it permeates into the body through the skin to activate the inside of the body, and it is considered that the hydrogen has a propulsive effect on health promotion. In addition, it also has effects of improving blood flow, activating and regenerating capillary vessel. And is considered to have an effect on allergic constitution, hair growth, and the like. In addition, it has an effect of removing oil and fat or dust etc. attached to the body, hair, scalp and skin (surfactant effect), and therefore, it can have a sufficient cleansing action and bathing effect without using shampoo and body wash. Moreover, hydrogen gas also has the effect of preventing hair and skin from aging, improving the color and luster of hair and skin, and maintaining the effect for a long time (having hair care and skin care effects). In addition, it is also effective for allergic constitution.

In order to prevent the hydrogen generation container 13 from being damaged by the pressure increase of the space 17 and the falling off of the top cover 23 when the hydrogen gas discharged from the hydrogen gas outlet pipe 18 is blocked, another hydrogen gas outlet pipe 19 may be provided as a hydrogen gas outlet of the hydrogen gas generation container 13. The hydrogen outlet pipe 19 is provided with a check valve which can discharge hydrogen when the pressure is higher than a predetermined pressure, so that hydrogen is normally discharged from the hydrogen outlet pipe 18, and when the pressure of the space 17 is excessively high, hydrogen can be discharged from the hydrogen outlet pipe 19, thereby solving the above-described problems. In addition, it is also possible to reinforce the connection of the top cover 23 to the hydrogen generation container 13 and the connection of the top cover 23 to the

hydrogen outlet pipes

18, 19, and to increase the strength of the top cover 23 to the hydrogen generation container 13, so that even if hydrogen cannot be discharged from the

hydrogen outlet pipes

18, 19, resulting in an increase in the hydrogen buildup pressure in the space 17, there is no possibility of the top cover 23 or the

hydrogen outlet pipes

18, 19, etc. falling off or being damaged. In this case, a valve, a flow meter, or the like may be provided in the hydrogen outlet pipe 18 or the hydrogen inlet pipe 20, so that the flow of hydrogen into the shower head 11 can be stopped or regulated.

Fig. 2 is a schematic view showing an embodiment of the structure of a shower head (body) for introducing hydrogen gas. The shower head 30 includes a shower head body 31, a water introduction connection pipe 40 that introduces water (including warm water) into the shower head body 31, and a hydrogen introduction connection pipe 38 that introduces hydrogen into the shower head body 31. The shower head body 31 is a portion for ejecting (discharging) water in a shower shape, and includes a water introduction chamber (also referred to as a water introduction portion or a water introduction space) 34, a hydrogen gas introduction chamber (also referred to as a hydrogen gas introduction portion or a hydrogen gas introduction nozzle) 36, a gas-liquid mixing chamber (also referred to as a gas-liquid mixing portion or a water-hydrogen gas mixing space) 33, and a shower plate portion 50. The water introduction chamber 34 is connected to the water introduction pipe 38 and stores water introduced from the water introduction pipe 40, the hydrogen gas introduction chamber 36 is connected to the hydrogen gas introduction pipe 38 and stores hydrogen gas introduced from the hydrogen gas introduction pipe 38, the gas-liquid mixing chamber 33 is a portion where water discharged from the water introduction chamber (portion) 34 and hydrogen gas discharged from the hydrogen gas introduction chamber (portion) 36 are mixed, and the shower plate portion 50 is connected to the gas-liquid mixing chamber (portion) 33 or surrounds a portion of the gas-liquid mixing chamber (portion) 33, and is provided with a plurality of shower holes 47 for discharging shower water.

The water introduction chamber 34 and the gas-liquid mixing chamber 33 are separated by a partition plate 34, but a part of the partition plate 32 is opened with a water introduction (spouting) hole 37, and the water in the water introduction chamber 34 flows into the gas-liquid mixing chamber 33 through the water introduction (spouting) hole 37 (an arrow 48 indicates a water flow direction). The hydrogen gas introduction chamber 36 is surrounded by the water introduction chamber 34 and separated by the gas-liquid separation plate 35. The outlet of the hydrogen gas introduction chamber 36 is opened with a hole (also referred to as a hydrogen gas ejection port or a hydrogen gas discharge hole) 43 so that the hydrogen gas is ejected by being pressed (an arrow 49 indicates the flow direction of the hydrogen gas). The hydrogen introduction connecting pipe 38 is connected to a hydrogen introduction pipe 41 through a hydrogen introduction connecting portion 39. The hydrogen gas introduction pipe 41 is connected to the hydrogen gas generation device 10 or the like as shown in fig. 1, for example, and the hydrogen gas stored in the hydrogen gas introduction chamber 36 is pushed out and discharged from the hydrogen gas discharge port 43 due to the flow of the hydrogen gas. Further, since the hydrogen gas discharge port 43 is disposed at a position close to the water conducting (spouting) hole 37 and the water conducting (spouting) hole (port) 37 is narrow, the flow of water at the water conducting (spouting) hole (port) 37 is faster than the surrounding area, and the pressure is low (negative pressure state is formed) according to bernoulli's principle, so that the hydrogen gas is sucked out from the hydrogen gas discharge port 43 and is discharged to the gas-liquid mixing chamber 33 (venturi effect). In this case, the hydrogen gas ejection ports 43 are disposed so as to be close to the water conduction (spouting) holes 37, and for example, it is conceivable that the outlet size of the hydrogen gas ejection ports 43 is smaller than the size of the water conduction (spouting) holes 37, and the positions of the hydrogen gas ejection ports 43 are substantially the same as the positions of the water conduction (spouting) holes 37. The hydrogen gas ejection port 43 may be disposed in the water conduction (ejection) hole 37 or at a position slightly deviated therefrom. In any case, it is sufficient if the hydrogen gas from the hydrogen gas ejection port 43 can be substantially introduced into the gas-liquid mixing chamber 33 (that is, the hydrogen gas ejection port 43 is disposed close to the water conducting (spouting) hole 37).

As shown in fig. 2, the gas-liquid separator 35 may be arranged such that the hydrogen gas inlet 44 is wide and the hydrogen gas outlet 43, which is an outlet for hydrogen gas, is narrow. For example, the gas-liquid separator 35 is formed in a conical shape, a pyramidal shape, or a trumpet shape, and has an opening at its apex portion, and hydrogen gas is ejected from the opening (hydrogen gas ejection port). In this configuration, the hydrogen gas introduction chamber 36 is surrounded by the water introduction chamber 35, and the water flowing through the water introduction chamber 34 smoothly flows into the gas-liquid mixing chamber 37 through the water passage (spouting) hole 37 after contacting the conical partition plate 35. Further, the hydrogen gas is discharged from the narrow hydrogen gas discharge port and smoothly enters the gas-liquid mixing chamber 37.

The water and the hydrogen gas that have entered the gas-liquid mixing chamber 33 are mixed and then squeezed out by the flow of the water and the flow of the hydrogen gas, and are discharged from a plurality of shower holes 47 that are opened in the shower plate portion 50. The water is mixed with hydrogen gas, and since hydrogen gas is substantially insoluble in water (about 2/1000g of hydrogen gas is dissolved in 1000g of water at 1 atmosphere), hydrogen gas 51 and water 52 are ejected from shower holes 47 in a separated state. In fig. 2, the water introduction (ejection) holes 37 are disposed near the center of the partition plate 32, so that water and hydrogen gas enter the gas-liquid mixing chamber 33 in a substantially equal amount and are mixed, and are ejected from the shower holes 47 disposed in the shower plate block 50 toward the outside of the shower plate block 50 in a substantially equal amount and in a substantially equal amount. Further, a plurality of water passage (spray) holes 37 may be disposed near the center of the partition plate 32 and/or at other portions. In such a configuration, in order to distribute water and hydrogen gas in a uniform manner in the gas-liquid mixing chamber 33, it is preferable that the plurality of water introduction (ejection) holes 37 be arranged symmetrically with respect to the center portion of the partition plate 32.

A shower hose (21 in fig. 1) is connected to the water introduction connection pipe 40, the other end of the shower hose is connected to a water supply unit (for example, a hot water device, a water pipe, or the like), and water or hot water is introduced into the water introduction chamber 34 (flow of water 46) through the water introduction connection pipe 40. At this time, the hydrogen gas may be introduced by connecting the hydrogen gas introduction connection pipe 42 to the middle of the water introduction connection pipe 40. With this structure as well, since there is the water flow 46, hydrogen is sucked into the water flow 46 (forming the hydrogen flow 45) according to the bernoulli principle. When the hydrogen gas is weakly sucked, the pressure of the hydrogen gas can be increased by setting the connection portion (indicated by an arrow 55) of the hydrogen gas introduction connection pipe (hydrogen gas connection line) 42 communicating with the hydrogen gas supply portion and the water introduction connection pipe 40 communicating with the water supply portion to be narrow (for example, the tip is connected in a tapered conical shape, and at this time, the apex portion of the conical hydrogen gas connection line connection portion has a hydrogen gas discharge hole), so that the hydrogen gas is pressed from the hydrogen gas introduction connection pipe 42 to the water introduction connection pipe 40, so that the hydrogen gas is supplied from the hydrogen gas discharge hole to the water supply portion, whereby the hydrogen gas can be smoothly added to the water flow 46, while preventing water from entering into the hydrogen gas introduction connection pipe 42. In this case, when it is not necessary to introduce hydrogen gas from the center of the shower head body 31, the hydrogen gas introduction chamber 36 does not need to be provided, and the partition plate 32 does not need to be provided, that is, the water introduction chamber 34 and the gas-liquid mixing chamber 33 may be integrated into one.

As described above, hydrogen gas and water are sprayed from the shower hole 47 in a separated state (hydrogen gas is substantially insoluble in water) to the head, body, or the like. The gas-liquid mixing chamber 33 is surrounded by the partition plate 32, the shower plate portion 50, and other portions to form a closed space (naturally, the water through hole 37 and the shower hole 47 are opened). The water introducing chamber 34, the member surrounding the gas-liquid mixing chamber 33, and the partition plate 32, the shower plate, and the like are made of a material having a certain strength and durability, which can be used as a shower material. For example, the material can be made of various plastics, various metals, and the like. In addition, although hydrogen gas is not substantially dissolved in water, as described above, a very small amount of hydrogen gas is dissolved in water to form hydrogen water, and the hydrogen water is also discharged as shower water, so that the effect of improving health can be obtained by the shower water as well.

Fig. 3 is a schematic view showing another embodiment of the structure of the hydrogen shower head (body) of the present invention. Parts of the same construction as the shower head of figure 2 are indicated with the same reference numerals. In the shower head (main body) 60 shown in fig. 3, a hydrogen gas introduction chamber (also referred to as a hydrogen gas introduction space) 61 is disposed outside the shower plate portion 50. Since the hydrogen gas introduction chamber 36 is not disposed in a part of the water introduction chamber (may be referred to as a water introduction space) 34 as shown in fig. 2, the gas-liquid separation plate 35 is not required to be disposed. Although a water discharge chamber (may also be referred to as a water discharge space) 58 is disposed adjacent to the water introduction chamber 34, this configuration is substantially the same as that shown in fig. 2, and water in the water discharge chamber 58 is discharged from a shower hole 47 formed in the shower plate portion (water flow 52). A partition plate 32 is disposed between the water introduction chamber 34 and the water discharge chamber 58, and one or more holes (water communication (spouting) holes) are opened through which the water introduced into the water introduction chamber 34 flows toward the water discharge chamber 58. Due to the presence of the partition plate 32, the water flow is substantially the same, and the shower water discharged from the plurality of shower holes 47 is also discharged in substantially the same manner. The water introduction chamber 34 and the water discharge chamber 58 may be formed integrally without providing the partition plate 32. At this time, since the hydrogen gas directly enters the water discharge chamber 58 from the water introduction connection pipe 40, the shower water discharged from the shower holes 47 is not the same, but if there is no particular problem, the partition plate may not be provided, and thus the structure is simple and the manufacturing is easy.

A hydrogen gas introduction chamber outer case 62 is disposed so as to surround the water introduction chamber 34 and the water discharge chamber 58, and a space (hydrogen gas introduction chamber) 61 is formed between the hydrogen gas introduction chamber outer case 62 and the water introduction chamber 34 and the water discharge chamber 58. The hydrogen gas introduction chamber 61 is connected to a hydrogen gas introduction connection pipe 64, and the hydrogen gas introduction pipe 64 is connected to the hydrogen gas introduction pipe 41 via a hydrogen gas introduction connection part 65. Therefore, the hydrogen gas (H2) flows in from the hydrogen gas introduction pipe 41 and flows into the hydrogen gas introduction chamber 61. In the hydrogen gas introduction chamber 61 in which the shower plate portion 50 is disposed, a plurality of shower holes 63 (the shower hole 47 formed in the shower plate portion 50 is a first shower hole, and the shower hole 63 formed in the hydrogen gas introduction chamber outer side case 62 is a second shower hole) are formed in a portion of the hydrogen gas introduction chamber outer side case 62 on the side facing the shower plate portion 50 across the hydrogen gas introduction chamber 61, and the hydrogen gas introduced into the hydrogen gas introduction chamber 61 is ejected to the outside through the second shower hole 63. Since the shower water discharged from the first shower hole 47 is also discharged to the second shower hole 63, the shower water and the shower hydrogen gas are discharged from the second shower hole 63. That is, a portion (space) of the hydrogen gas introduction chamber 61 sandwiched between the shower plate portion (also referred to as a first shower plate portion) 50 and the second shower plate portion (a portion of the hydrogen gas introduction chamber outer case where the second shower hole is provided is the second shower plate portion) 59 is a portion where water and hydrogen gas are mixed.

Therefore, by disposing the hydrogen gas introduction chamber 61 outside the shower plate portion 50, the shower hydrogen gas can be discharged to the outside of the shower head and showered to the head or body. As shown in fig. 3, the hydrogen shower head may be considered to be a normal shower head in which a hydrogen introduction chamber outside case 62 is covered and a hydrogen introduction chamber 61 is formed therebetween. If the hydrogen gas introduction outdoor side casing 62 is formed to be detachable, it can be directly applied to a shower head which is currently used or commercially available, and a simple shower can be performed using hydrogen shower water. When the hydrogen gas introduction outdoor side housing 62 is covered with the normal shower head, the hydrogen gas introduction outdoor side housing 62 can be reliably fixed to the normal shower head by using a material having elasticity such as rubber at the connecting (covering) portion thereof, and hydrogen gas is not leaked from the connecting portion between the hydrogen gas introduction outdoor side housing 62 and the normal shower head, so that only hydrogen gas can be discharged from the second shower hole provided in the second shower plate portion 59.

In addition to the hydrogen generating agent shown at the hydrogen generating apparatus in fig. 1, various other hydrogen generating agents may be employed. Examples thereof include a method of generating hydrogen gas by reacting an acid such as hydrochloric acid with a metal such as nickel, and a method of generating hydrogen gas by reacting aluminum obtained by combining a boron hydride metal salt/an alkaline earth metal hydride salt/magnesium/an alkaline agent with water. In addition, although the hydrogen generating agent has been used as the hydrogen generator (device) in the past, other hydrogen generating agents that generate hydrogen by electrolysis may be used. Alternatively, hydrogen gas may be supplied from a hydrogen cylinder in which high-pressure hydrogen gas is stored. In this case, a regulator (pressure regulator or pressure reducer) may be added to the supply line to reduce the pressure of the high-pressure hydrogen gas, or a flow meter or flow meter may be added to adjust the supply amount of the hydrogen gas. The hydrogen may also be supplied from liquid hydrogen. In this case, a heater may be added to the hydrogen supply line to heat the hydrogen gas when the temperature of the hydrogen gas is low. Hydrogen gas may also be supplied from the hydrogen occluding alloy.

A shower with a hose is shown in fig. 1, however showers without a hose (e.g. devices where the shower head is fixed to a wall) are also within the scope of the invention. In addition, not only bathrooms and shower rooms, but also showers and wash tables installed in beauty rooms, barbershops, and the like as hair washing facilities are included in the scope of the present invention. The hydrogen supply line may be provided with a valve, a flow meter, a flowmeter, or the like to shut off the supply of hydrogen gas or adjust the flow rate of the supplied hydrogen gas. The shower head may be provided with a switch for turning off or on the hydrogen supply or a hydrogen flow rate adjusting device for adjusting the hydrogen supply rate.

As described above in detail, the present invention is a hydrogen shower water system in which hydrogen gas and water are showered as shower water onto the body (that is, a shower water in which hydrogen gas and shower water are mixed is referred to as hydrogen shower water), and by using this hydrogen shower water system, hydrogen gas can be supplied to each part of the body including the head and face and absorbed into the body. In addition, the hydrogen shower water system of the present invention can be used in a place where tap water can be used even if there is no electricity. In the present specification, the other parts not described in the specification or other than the content part described in the specification should be considered as being applicable to the present invention as long as the other parts are not contradictory to the gist of the present invention and can be applied to the configuration of the present invention. The above embodiment is merely an example, and various modifications can be made without departing from the spirit of the present invention, and the scope of the present invention is not limited to the above embodiment.

Industrial applicability

Since hydrogen molecules are small and permeate through the skin and cells of the body, the present invention can improve the health-promoting effect by supplying hydrogen to all parts of the body.

Description of the reference numerals

8 hydrogen gas generation system, 9 shower device, 10 hydrogen gas generation device, 11 shower head, 12 shower holes, 13 hydrogen gas generation container, 14 water, 15 hydrogen gas generation agent cartridge, 16 hydrogen gas bubbles, 17 space, 18 hydrogen gas outlet pipe, 19 hydrogen gas outlet pipe, 20 hydrogen gas inlet pipe, 21 hose, 22 hydrogen shower water, 23 top cover, 30 shower head, 31 shower head body, 32 partition plate, 33 gas-liquid mixing chamber, 34 water inlet chamber, 35 gas-liquid partition plate, 36 hydrogen gas inlet chamber, 37 water conduction (spray) holes (ports), 38 hydrogen gas inlet connecting pipe, 39 hydrogen gas inlet connecting part, 40 water inlet connecting pipe, 41 hydrogen gas inlet pipe, 42 hydrogen gas inlet connecting pipe, 43 hydrogen gas outlet port, 44 hydrogen gas, 45 hydrogen gas flow, 46 water flow, 47 shower holes, 48 water flow, 49 … flow of hydrogen gas, 50 … shower plate, 51 … hydrogen gas, 52 … water, 58 … water discharge chamber, 59 … second shower plate, 60 … shower head, 61 … hydrogen gas introduction chamber, 62 … hydrogen gas introduction outdoor side housing, 63 … second shower hole, 64 … hydrogen gas introduction connection pipe, 65 … hydrogen gas introduction connection part.

Claims

1. A hydrogen shower water system is characterized in that,

the hydrogen and the shower water are sprayed out together through shower holes arranged on the shower plate;

the hydrogen shower water system comprises:

a shower head having the shower plate provided with a plurality of shower holes; a water/hydrogen mixing space for mixing water and hydrogen; a water introduction space into which water is introduced; and a hydrogen nozzle having a hydrogen discharge hole at the front end for discharging hydrogen,

a water supply part for supplying water to the water introducing space of the shower head, an

A hydrogen gas supply part which supplies hydrogen gas to the hydrogen gas nozzle of the shower head,

the water/hydrogen mixing space is arranged between the shower plate and the partition plate,

the water introduction space is disposed on the opposite side of the water/hydrogen mixing space with the partition plate interposed therebetween,

a water conducting hole for allowing water to flow from the water introducing space to the water/hydrogen mixing space is disposed in the partition plate,

a hydrogen gas discharge hole of the hydrogen nozzle is disposed near the water conducting hole, and hydrogen gas is discharged from the hydrogen gas discharge hole of the hydrogen nozzle to the water/hydrogen gas mixing space through the water conducting hole.

2. A hydrogen shower water system as claimed in claim 1,

the hydrogen nozzle is conical, and the top end of conical hydrogen nozzle is provided with the hydrogen discharge hole, the hydrogen discharge hole be close to set up in the water conducting hole of division board.

3. A hydrogen shower water system as claimed in claim 1 or 2,

the hydrogen gas in the hydrogen nozzle is sucked to the water/hydrogen mixing space by means of a negative pressure generated when the water introduced to the water introduction space flows into the water/hydrogen mixing space through the water conducting hole.

4. A hydrogen shower water system as claimed in claim 1,

a hydrogen gas connection line connected to the hydrogen gas supply unit is connected to the water supply unit, and hydrogen gas is supplied to the shower.

5. A hydrogen shower water system as claimed in claim 4,

the hydrogen connecting line is connected to the water supply part in a conical shape, and a hydrogen gas discharge hole is formed in the top of the connecting part of the conical hydrogen connecting line, so that hydrogen gas is supplied from the hydrogen gas discharge hole to the water supply part.

6. A hydrogen shower water system as claimed in claim 4,

the hydrogen supply part is a hydrogen generating device, a hydrogen cylinder or liquid hydrogen.

7. A hydrogen shower water system as claimed in claim 6,

the connecting line of the hydrogen nozzle and the hydrogen supply part or the hydrogen connecting line is provided with a pressure regulator capable of regulating the pressure of the hydrogen.

8. A hydrogen shower water system as claimed in claim 1, comprising:

a shower head including a first shower plate and a second shower plate having a hydrogen introduction space therebetween; a hydrogen gas introduction space clamped by the first shower plate and the second shower plate; and a water introduction space into which water is introduced,

A hydrogen gas supply part which supplies hydrogen gas to the hydrogen gas introduction space of the shower head,

the first shower plate has a plurality of shower holes, and water is discharged from the water introduction space to the hydrogen gas introduction space through the shower holes of the first shower plate,

the second shower plate has a plurality of shower holes, and water and hydrogen are discharged from the hydrogen introduction space to the outside of the shower head through the shower holes of the second shower plate.

9. A hydrogen shower water system as claimed in claim 8,

10. A hydrogen shower water system as claimed in claim 9,

a hydrogen gas connection line connecting the hydrogen gas introduction space and the hydrogen gas supply unit is provided with a pressure regulator capable of regulating the pressure of hydrogen gas.

11. A hydrogen shower water system as claimed in any one of claims 8 to 10,

the second shower plate may be removable.

12. A hydrogen shower water system as claimed in any one of claims 6, 7 and 10,

the hydrogen generating device is a device provided with a hydrogen outlet on a container added with water and a hydrogen generating agent, and the hydrogen outlet is connected with the hydrogen connecting pipeline.

13. A hydrogen shower water system as claimed in any one of claims 6, 7 and 10,

the hydrogen generating device is provided with a plurality of hydrogen outlets, wherein at least one hydrogen outlet is connected with the hydrogen connecting pipeline, and at least one hydrogen outlet is connected with the atmosphere.